Litcius/Paper detail

Morphological decomposition in Chinese compound word recognition: Electrophysiological evidence

Yanjun Wei, Ying Niu, Marcus Taft, Manuel Carreiras

2023Brain and Language18 citationsDOIOpen Access PDF

Abstract

The present study examined the effect of both morphological complexity and semantic transparency in Chinese compound word recognition. Using a visual lexical decision task, our electrophysiological results showed that transparent and opaque compounds induced stronger Left Anterior Negativity (LAN) than monomorphemic words. This result suggests that Chinese compounds might be decomposed into their constituent morphemes at the lemma level, whereas monomorphemic words are accessed as a whole-word lemma directly from the form level. In addition, transparent and opaque compounds produced a similar N400 as each other, suggesting that transparency did not show an effect on the involvement of constituent morphemes during access to the whole-word lemma. Two behavioral experiments additionally showed similar patterns to the EEG results. These findings support morphological decomposition for compounds at the lemma level as proposed by the full-parsing model, and no evidence is found to support the role of transparency during Chinese compound word recognition.

Topics & Concepts

CompoundMorphemeLemma (botany)PsychologyLexical decision taskN400Transparency (behavior)ElectrophysiologyWord (group theory)ElectroencephalographyCommunicationLinguisticsNatural language processingArtificial intelligenceEvent-related potentialComputer scienceCognitionBiologyNeurosciencePoaceaePhilosophyComputer securityEcologyNeurobiology of Language and BilingualismReading and Literacy DevelopmentNeural and Behavioral Psychology Studies
Morphological decomposition in Chinese compound word recognition: Electrophysiological evidence | Litcius